The finite element analysis (FEA) is an upcoming and significant research tool for
biomechanical analyses in biological research. It is an ultimate method for modeling …

Many studies have found that the threshold of occlusal force tolerated by titanium-based
implants is significantly lower than that of natural teeth due to differences in biomechanical …

Purpose The purpose of this study was to investigate the biomechanical behavior of
immediately loaded implants in an edentulous mandible according to the “All-on-Four” …

Extreme atrophy of the maxilla still poses challenges for clinicians. Some of the techniques
used to address this issue can be complex, risky, expensive, and time consuming, often …

Ever since the introduction of topology optimization into the industrial and manufacturing
fields, it has been a top priority to maximize the performance of any system by optimizing its …

Purpose The main objective of this study was to investigate the influence of implant design,
bone type, and abutment angulation on stress distribution around dental implants. Materials …

Objective To assess stress distribution in peri-implant bone and attachments of mandibular
overdentures retained by small diameter implants, and to explore the impact of implant …

Background Research on resolving implant fracture is still gaining attention as it can be a
serious treatment failure outcome. The implant fracture is likely to occur due to increased …

The purpose of this study was to compare the effects of implant inclinations and load times
on stress distributions in the peri-implant bone based on immediate-and delayed-loading …

Purpose The purpose was to investigate stress distribution among 4 different customized
abutment types: titanium abutment (Ti), titanium hybrid‐abutment‐crown (Ti‐Hybrid) …